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CN108827828B - A kind of two-stage type damping plug flow behavior test system and its test method - Google Patents

A kind of two-stage type damping plug flow behavior test system and its test method Download PDF

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Publication number
CN108827828B
CN108827828B CN201810678413.3A CN201810678413A CN108827828B CN 108827828 B CN108827828 B CN 108827828B CN 201810678413 A CN201810678413 A CN 201810678413A CN 108827828 B CN108827828 B CN 108827828B
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test channel
thread
tch test
straight
damping plug
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CN108827828A (en
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高军霞
吴凤和
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Hebei Juneng Steel Structure Co.,Ltd.
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Yanshan University
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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N11/00Investigating flow properties of materials, e.g. viscosity, plasticity; Analysing materials by determining flow properties
    • G01N11/02Investigating flow properties of materials, e.g. viscosity, plasticity; Analysing materials by determining flow properties by measuring flow of the material
    • G01N11/04Investigating flow properties of materials, e.g. viscosity, plasticity; Analysing materials by determining flow properties by measuring flow of the material through a restricted passage, e.g. tube, aperture

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Abstract

The invention discloses a kind of two-stage type damping plug flow behavior test system and its test method, two-stage type damping plug flow behavior test system includes hydraulic control device, test valve block and electric control gear;It tests valve block and is equipped with TCH test channel, TCH test channel includes at least TCH test channel major diameter section and TCH test channel path section, and major diameter damping plug and path damping plug, which are respectively cooperating with, to be arranged in TCH test channel major diameter section and TCH test channel path section.Two-stage type damping plug inner hole flow behavior in the duct can be accurately studied by the pilot system and flow behavior when two two-stage type damping plug inner holes are connected in the duct, and then inner hole flow behavior of the changing rule and concatenated two two-stage type damping plugs of the discharge coefficient of realization characterization two-stage type damping plug inner hole flow behavior under different spacing, to provide data support and theoretical research foundation for two-stage type damping plug inner hole flow behavior.

Description

A kind of two-stage type damping plug flow behavior test system and its test method
Technical field
It is specifically a kind of to be suitable for the present invention relates to a kind of damping plug flow behavior test system and its test method To pilot system and its test method that the flow behavior of two-stage type damping plug is tested, belong to damping plug Study of Flow Characteristics Technical field.
Background technique
All flow areas that can locally change liquid stream make liquid stream generate the pressure loss (drag characteristic) or in pressure difference one Determine in situation that distribution adjusts the hydraulic valve port of flow (control characteristic) and similar structures are referred to as liquid resistance, such as thin wall small hole, short Hole, elongated hole, gap etc., the essential function of liquid resistance include every pressure and current limliting, and the pressure of liquid resistance front and back can be very big with difference, changes Liquid resistance size can change by flow.Damping pore structure is relatively conventional liquid resistance, damping hole because its throttling, pressure control, It the effects of buffering, damping, has a wide range of applications in engineering fields such as orifice flowmeter, Hydraulic Elements and pipe-line systems.
Since damping bore dia is smaller, it is made into thin-walled sharp-edged orifice and is extremely difficult to processing request, therefore generally use damping The mode of plug, i.e., installation has from larger pipe diameter to the damping plug of smaller damping bore dia sudden contraction structure in damping, and hinders Ni Sai is widely used by the simplicity of its design and the flexibility of installation in mechanical engineering field.
The characteristics of single stage type damping plug is when fluid flows through its internally-damped hole by a sudden contraction structure, and two-stage type hinders The characteristics of Buddhist nun fills in is to need to continue through two sudden contraction structure numbers when fluid flows through its internally-damped hole.Often complicated liquid Element and pipe-line system etc. is pressed to damp plug structure usually using two-stage type.
The experimental study of single stage type damping plug inner hole is relatively mature at present, and characterizes the flowing of two-stage type damping plug inner hole The discharge coefficient of characteristic mainly uses the correlation values of single stage type damping plug inner hole, and often error is larger.In addition, domestic and international needle The experimental study of inner hole flow behavior is less when to damping plug cascaded structure, and difference series connection spacing and flow passage structure are to damping plug The influence of inner hole flow behavior is not on the books, therefore, it is special how accurately to study the flowing of two-stage type damping plug inner hole in the duct Flow behavior when property and two two-stage type damping plug inner holes are connected in the duct is to need to solve to reduce discharge coefficient error Certainly the problem of.
Summary of the invention
In view of the above existing problems in the prior art, the present invention provides a kind of two-stage type damping plug flow behavior testing experiments System and its test method can accurately study the flow behavior of two-stage type damping plug inner hole in the duct by the pilot system And flow behavior of two two-stage type damping plug inner holes when connecting in the duct, and then realization characterizes two-stage type damping plug The inner hole stream of the changing rule of the discharge coefficient of inner hole flow behavior and concatenated two two-stage type damping plugs under different spacing Dynamic characteristic, to provide data support and theoretical research foundation for two-stage type damping plug inner hole flow behavior.
To achieve the goals above, this two-stage type damping plug flow behavior test system include hydraulic control device, Test valve block and electric control gear;
The hydraulic control device includes hydraulic oil container, filter, hydraulic pump, overflow valve, pressure gauge, check valve, cuts Only valve, throttle valve, electronic flowmeter;The power intake of hydraulic pump is connected to motor, and is connected to connection with the liquid feeding end of hydraulic pump Inlet line by filter not below the hydraulic oil liquid level in hydraulic oil container;Shut-off valve includes test valve block oil inlet cut-off Valve and test valve block go out oil cut-off valve;The pump oil pipeline of connection is connected to the pump liquid end of hydraulic pump passes through overflow valve and liquid all the way The connection of pressure oil case, another way are connect by check valve with test valve block oil inlet shut-off valve;The pump liquid end position of hydraulic pump is equipped with pressure Power table;Test valve block goes out oil cut-off valve and is successively linked in sequence with throttle valve and electronic flowmeter by fluid pressure line, electronic flow The outlet end of meter is connected with hydraulic tank by oil return fluid pressure line;
The test valve block is equipped with straight thread TCH test channel, and straight thread TCH test channel includes that the test of straight thread straight line is logical Road;Straight thread straight line TCH test channel is through the straight thread pore structure of test valve block, the rear and front end difference of straight thread pore structure Equipped with delivery connection installing port and fuel inlet fitting installing port, fuel inlet fitting installing port is cut by fluid pressure line and test valve block oil inlet Only valve connects, and delivery connection installing port goes out oil cut-off valve with test valve block by fluid pressure line and connect, and straight thread pore structure includes The straight thread TCH test channel major diameter section and front end that rear end is connected to fuel inlet fitting installing port are connected to straight with delivery connection installing port Screw thread TCH test channel path section, straight thread TCH test channel major diameter section is interior to be equipped with the major diameter straight thread damping plug being threadedly engaged with it, It is equipped with the path straight thread damping plug being threadedly engaged with it in straight thread TCH test channel path section, major diameter straight thread damping plug and small The rear end that the coaxial damping hole through ontology and damping hole are equipped on the ontology of diameter straight thread damping plug is equipped with interior side's counterbore knot Pressure is surveyed in structure, the straight thread straight line TCH test channel oil inlet that the rear portion of straight thread TCH test channel major diameter section is equipped with radially direction perforation Hole and straight thread straight line TCH test channel oil inlet pressure tap run through test valve block, the front of straight thread TCH test channel major diameter section or straight The rear portion of screw thread TCH test channel path section is equipped with pressure tap among the radially straight line TCH test channel of direction perforation and straight line is surveyed For pressure tap through test valve block, the front of straight thread TCH test channel path section is equipped with radially direction perforation among pinging The fuel-displaced pressure tap of straight line TCH test channel and the fuel-displaced pressure tap of straight line TCH test channel run through test valve block;
The electric control gear include central processing unit, pressure sensor, pressure test circuit, data calculating export back Road, more than one piece pressure sensor is separately positioned on straight thread straight line TCH test channel oil inlet pressure tap, pressure is surveyed in straight line TCH test channel centre On hole, the fuel-displaced pressure tap of straight line TCH test channel, central processing unit is electrically connected with more than one piece pressure sensor, electronic flowmeter respectively.
As a further improvement of the present invention, the straight thread TCH test channel for testing valve block further includes that straight thread turning is surveyed It pings, straight thread turning TCH test channel includes the orthogonal major diameter straight thread pore structure for intersecting perforation and path straight thread hole Structure, the rear end of major diameter straight thread pore structure is equipped with fuel inlet fitting installing port, front end is equipped with plug installing port, path straight thread hole The rear end of structure is pressure tap among the TCH test channel of straight thread turning, front end equipped with delivery connection installing port, major diameter straight thread hole It also is provided with the major diameter straight thread damping plug being threadedly engaged with it in structure, also is provided with matching with its screw thread in path straight thread pore structure The path straight thread damping plug of conjunction, the straight thread turning that the rear portion of major diameter straight thread pore structure is equipped with radially direction perforation are surveyed It pings oil inlet pressure tap and straight thread turning TCH test channel oil inlet pressure tap is through test valve block, path straight thread pore structure Front be equipped with radially direction perforation the fuel-displaced pressure tap of straight thread turning TCH test channel and straight thread turning TCH test channel Fuel-displaced pressure tap pressure tap, the TCH test channel oil inlet of straight thread turning among test valve block, straight thread turning TCH test channel are surveyed Pressure sensor is also respectively equipped on pressure hole, the fuel-displaced pressure tap of straight thread turning TCH test channel.
As a further improvement of the present invention, it tests in valve block and is additionally provided with tapered thread TCH test channel, tapered thread TCH test channel includes taper thread straight line TCH test channel, and taper thread straight line TCH test channel is through the straight-through pore structure of test valve block, The rear and front end of straight-through pore structure is respectively equipped with delivery connection installing port and fuel inlet fitting installing port, and straight-through pore structure includes rear end The taper thread that the taper thread TCH test channel major diameter section being connected to fuel inlet fitting installing port and front end are connected to delivery connection installing port TCH test channel path section, major diameter taper thread damping plug pass through the major diameter taper thread that taper thread TCH test channel major diameter section rear end is arranged in It is fixedly mounted on the rear end of taper thread TCH test channel major diameter section, path taper thread damping plug is by being arranged in taper thread TCH test channel The path taper thread of path section rear end is fixedly mounted on the rear end of taper thread TCH test channel path section, major diameter taper thread damping plug and The rear end that the coaxial damping hole through ontology and damping hole are equipped on the ontology of path taper thread damping plug is equipped with interior side's counterbore Structure, the front end of the fuel inlet fitting installing port of taper thread straight line TCH test channel are equipped with the taper thread straight line of radially direction perforation TCH test channel oil inlet pressure tap and taper thread straight line TCH test channel oil inlet pressure tap run through test valve block, taper thread TCH test channel The front of major diameter section is equipped with pressure tap among the radially taper thread straight line TCH test channel of direction perforation and taper thread straight line is surveyed For pressure tap through test valve block, the front of taper thread TCH test channel path section is equipped with radially direction perforation among pinging The fuel-displaced pressure tap of taper thread straight line TCH test channel and the fuel-displaced pressure tap of taper thread straight line TCH test channel run through test valve block, bore spiral shell Pressure tap, taper thread straight line TCH test channel are fuel-displaced among line straight line TCH test channel oil inlet pressure tap, taper thread straight line TCH test channel Also pressure sensor is equipped on pressure tap.
As a further improvement of the present invention, the tapered thread TCH test channel for testing valve block further includes taper thread turning TCH test channel, taper thread turning TCH test channel include that the orthogonal major diameter for intersecting perforation leads directly to pore structure and path clear opening knot Structure, the rear end that major diameter leads directly to pore structure is equipped with fuel inlet fitting installing port, front end is equipped with plug installing port, and path leads directly to pore structure Rear end is pressure tap among the TCH test channel of taper thread turning, front end equipped with delivery connection installing port, and major diameter taper thread damping plug is logical Cross be arranged in major diameter lead directly to pore structure rear end major diameter taper thread be fixedly mounted on major diameter lead directly to pore structure rear end, path bore spiral shell After the path taper thread that line damping plug leads directly to pore structure rear end by the way that path is arranged in is fixedly mounted on the straight-through pore structure of path End, major diameter lead directly to pore structure rear portion be equipped with radially direction perforation taper thread turning TCH test channel oil inlet pressure tap and For taper thread turning TCH test channel oil inlet pressure tap through test valve block, the front that path leads directly to pore structure is equipped with radially direction The fuel-displaced pressure tap of taper thread turning TCH test channel and the fuel-displaced pressure tap of taper thread turning TCH test channel of perforation are through test valve Block, taper thread turning TCH test channel centre pressure tap, taper thread turning TCH test channel oil inlet pressure tap, the test of taper thread turning are logical Pressure sensor is also respectively equipped on the fuel-displaced pressure tap in road.
As a further improvement of the present invention, test valve block is made of transparent material.
As a further improvement of the present invention, it tests in valve block and corresponds to major diameter straight thread damping plug and path straight thread The position of damping plug shift motion is equipped with dial markings or graduated scale.
As a further improvement of the present invention, hydraulic control device further includes not below in the liquid level of hydraulic oil container Cooler, temperature sensor and heater, cooler, temperature sensor and heater respectively with the central processing unit of electric control gear Electrical connection, electric control gear further includes Oil-temperature control circuit.
As a further improvement of the present invention, overflow valve is electromagnetic relief valve, and pressure gauge is electronic pressure gage, cut-off Valve is electromagnet cut off valve, and throttle valve is electromagnetic throttle valve, electromagnetic relief valve, electronic pressure gage, electromagnet cut off valve, electromagnetic throttle valve It is electrically connected respectively with the central processing unit of electric control gear.
A kind of two-stage type damping plug flow behavior testing experiment method, specifically includes the following steps:
A. test prepares: in the interior side's counter bore structure for first passing through the path damping plug in interior square head wrench insertion setting damping aperture Portion and rotate be adjusted axial direction position to setting position of the path damping plug in TCH test channel, then pulled again with interior side The major diameter damping plug in the set-mounted damping aperture of hand simultaneously adjusts axial direction position of the major diameter damping plug in TCH test channel to setting Positioning is set, and the fuel inlet fitting installing port of TCH test channel is connect by fluid pressure line with test valve block oil inlet shut-off valve, tests and leads to The delivery connection installing port in road goes out oil cut-off valve with test valve block by fluid pressure line and connect;
B. two-stage type damping plug flow behavior is tested: starting hydraulic pump is started to work, and pumps out pressure by pressure gauge observation Value and control overflow valve adjustment pump out pressure to setup pressure value;It opens test valve block oil inlet shut-off valve and test valve block is fuel-displaced Shut-off valve;Pressure test loop works, TCH test channel oil inlet pressure tap, TCH test channel centre pressure tap, the fuel-displaced survey of TCH test channel Press the pressure sensor on hole to central processing unit feedback pressure data, electronic flowmeter feeds back flow number to central processing unit According to;
C. data are calculated and exported: data calculate output loop work, and central processing unit is according to major diameter damping plug and path The front and rear pipes pressure drop values and major diameter damping plug of damping plug and the volume flow numerical value of path damping plug carry out calculate and it is defeated Calculated result out obtains the discharge coefficient changing rule of two-stage type damping plug inner hole.
As a further improvement of the present invention, in step c central processing unit according to following formula carry out calculate and it is defeated Calculated result out,
Wherein: CdFor the discharge coefficient of two-stage type damping plug inner hole, Q is the volume flow by two-stage type damping plug inner hole Amount, A are effective flow area by two-stage type damping plug inner hole, front and back pipe when △ p is by two-stage type damping plug inner hole Road pressure drop, ρ are fluid density.
Compared with prior art, this two-stage type damping plug flow behavior test system and its test method can get two The discharge coefficient changing rule of grade formula damping plug inner hole can get between concatenated two two-stage type damping plugs different spacing to two Grade formula damping plug inner hole flow behavior influence, can accurately study the flow behavior of two-stage type damping plug inner hole in the duct with And flow behavior of two two-stage type damping plug inner holes when connecting in the duct, and then in realization characterization two-stage type damping plug The inner hole flowing of the changing rule of the discharge coefficient of hole flow behavior and concatenated two two-stage type damping plugs under different spacing Characteristic can also be realized under more than two two-stage type damping plug cascaded structures by the way that two test valve blocks are connected in series Inner hole flow behavior test, for two-stage type damping plug inner hole flow behavior provide data support and theoretical research foundation.
Detailed description of the invention
Fig. 1 is the hydraulic schematic diagram of two-stage type damping plug flow behavior test system of the present invention;
Fig. 2 is the three dimensional structure diagram of present invention test valve block;
Fig. 3 is the A-A cross-sectional view of Fig. 2;
Fig. 4 is the B-B cross-sectional view of Fig. 2;
Fig. 5 is the structural schematic diagram of path straight thread damping plug of the present invention;
Fig. 6 is the left view of Fig. 5;
Fig. 7 is the structural schematic diagram of path taper thread damping plug of the present invention;
Fig. 8 is the left view of Fig. 7.
In figure: 1, filter, 2, hydraulic pump, 3, pressure gauge, 4, check valve, 5, overflow valve, 6, pressure sensor, 7, cut-off Valve, 71, test valve block oil inlet shut-off valve, 72, test valve block go out oil cut-off valve, 8, test valve block, 81, the test of straight thread straight line it is logical Road, 811, straight thread TCH test channel major diameter section, 812, major diameter straight thread damping plug, 813, straight thread TCH test channel path section, 814, path straight thread damping plug, 815, straight thread straight line TCH test channel oil inlet pressure tap, 816, the centre survey of straight line TCH test channel Pressure hole, 817, the fuel-displaced pressure tap of straight line TCH test channel, 82, straight thread turning TCH test channel, 821, major diameter straight thread pore structure, 822, path straight thread pore structure, 823, straight thread turning TCH test channel centre pressure tap, 824, straight thread turning TCH test channel Oil inlet pressure tap, 825, the fuel-displaced pressure tap of straight thread turning TCH test channel, 83, taper thread straight line TCH test channel, 831, taper thread TCH test channel major diameter section, 832, major diameter taper thread damping plug, 833, taper thread TCH test channel path section, 834, the resistance of path taper thread Ni Sai, 835, taper thread straight line TCH test channel oil inlet pressure tap, 836, taper thread straight line TCH test channel centre pressure tap, 837, cone The fuel-displaced pressure tap of screw thread straight line TCH test channel, 9, throttle valve, 10, electronic flowmeter, 11, cooler, 12, temperature sensor, 13, Heater, 14, hydraulic oil container.
Specific embodiment
The present invention will be further described with reference to the accompanying drawing (is retouched using the traffic direction of hydraulic oil as front below It states).
As shown in Figure 1, this two-stage type damping plug flow behavior test system includes hydraulic control device, test valve block 8 and electric control gear.
The hydraulic control device includes hydraulic oil container 14, filter 1, hydraulic pump 2, overflow valve 5, pressure gauge 3, unidirectional Valve 4, shut-off valve 7, throttle valve 9, electronic flowmeter 10;The power intake of hydraulic pump 2 is connected to motor, with hydraulic pump 2 into The inlet line of liquid end connection connection is by filter 1 not below the hydraulic oil liquid level in hydraulic oil container 14;Shut-off valve 7 includes Test valve block oil inlet shut-off valve 71 and test valve block go out oil cut-off valve 72;The pump oil pipe of connection is connected to the pump liquid end of hydraulic pump 2 The connect with hydraulic oil container 14 by overflow valve 5 all the way of road, another way by check valve 4 with test the company of valve block oil inlet shut-off valve 71 It connects;The pump liquid end position of hydraulic pump 2 is equipped with pressure gauge 3;Test valve block go out oil cut-off valve 72 by fluid pressure line successively with throttling Valve 9 and electronic flowmeter 10 are linked in sequence, and the outlet end of electronic flowmeter 10 is connected by oil return fluid pressure line and hydraulic oil container 14 It connects.
The test valve block 8 is equipped with straight thread TCH test channel, and straight thread TCH test channel includes the test of straight thread straight line Channel 81;
As shown in Figure 2 and Figure 3, straight thread straight line TCH test channel 81 is through the straight thread pore structure of test valve block 8, straight spiral shell The rear and front end of pit structure is respectively equipped with delivery connection installing port and fuel inlet fitting installing port, and fuel inlet fitting installing port passes through liquid Pressure pipe road is connect with test valve block oil inlet shut-off valve 71, and delivery connection installing port passes through fluid pressure line and the test fuel-displaced cut-off of valve block Valve 72 connect, straight thread pore structure include the straight thread TCH test channel major diameter section 811 that rear end is connected to fuel inlet fitting installing port and The straight thread TCH test channel path section 813 that front end is connected to delivery connection installing port is set in straight thread TCH test channel major diameter section 811 There is the major diameter straight thread damping plug 812 being threadedly engaged with it, is equipped in straight thread TCH test channel path section 813 and is threadedly engaged with it Path straight thread damping plug 814, as shown in Figure 5, Figure 6, major diameter straight thread damping plug 812 and path straight thread damping plug 814 Ontology on be equipped with the coaxial damping hole through ontology and the rear end of damping hole is equipped with interior side's counter bore structure, pulled by interior side Hand inside square counter bore structure and is rotated and be may be implemented point from the insertion of the fuel inlet fitting installing port of straight thread straight line TCH test channel 81 Not Tiao Zheng major diameter straight thread damping plug 812 and path straight thread damping plug 814 in straight thread TCH test channel major diameter section 811 and straight spiral shell The rear portion of axial direction position in line TCH test channel path section 813, straight thread TCH test channel major diameter section 811 is equipped with radially The straight thread straight line TCH test channel oil inlet pressure tap 815 and straight thread straight line TCH test channel oil inlet pressure tap 815 of direction perforation pass through Test valve block 8 is worn, the front of straight thread TCH test channel major diameter section 811 or the rear portion of straight thread TCH test channel path section 813 are equipped with Radially pressure tap 816 runs through survey among the straight line TCH test channel centre pressure tap 816 and straight line TCH test channel of direction perforation Valve block 8 is tried, the front of straight thread TCH test channel path section 813 is equipped with the fuel-displaced survey of straight line TCH test channel of radially direction perforation It presses hole 817 and the fuel-displaced pressure tap 817 of straight line TCH test channel is through test valve block 8.
The electric control gear include central processing unit, pressure sensor 6, pressure test circuit, data calculating export back Road, more than one piece pressure sensor 6 are separately positioned on straight thread straight line TCH test channel oil inlet pressure tap 815, among straight line TCH test channel On the fuel-displaced pressure tap 817 of pressure tap 816, straight line TCH test channel, central processing unit respectively with more than one piece pressure sensor 6, electron stream Meter 10 is electrically connected.
This two-stage type damping plug flow behavior test system first passes through interior square head wrench from straight thread before being tested Interior side's counterbore of the path straight thread damping plug 814 in the fuel inlet fitting installing port insertion setting damping aperture of straight line TCH test channel 81 Inside configuration and rotate be adjusted axial direction side of the path straight thread damping plug 814 in straight thread TCH test channel path section 813 To position to setting position, then again with interior square head wrench it is set-mounted damping aperture major diameter straight thread damping plug 812 and adjust Axial direction position to setting position of the major diameter straight thread damping plug 812 in straight thread TCH test channel major diameter section 811, that is, complete The test assembling for testing valve block 8, passes through fluid pressure line and test for the fuel inlet fitting installing port of straight thread straight line TCH test channel 81 Valve block oil inlet shut-off valve 71 connects, the delivery connection installing port of straight thread straight line TCH test channel 81 passes through fluid pressure line and test valve Block goes out the connection of oil cut-off valve 72, can start test macro.
Start hydraulic pump 2 to start to work, the hydraulic oil in hydraulic oil container 14 passes through by entering hydraulic pump 2 after filter 1 Hydraulic oil is entered check valve 4 by pipeline by hydraulic pump 2, is pumped out pressure value by the observation of pressure gauge 3 and is controlled overflow valve 5 and adjusts The whole pressure that pumps out is to setup pressure value;It opens test valve block oil inlet shut-off valve 71 and test valve block goes out setting pressure after oil cut-off valve 72 The hydraulic oil of power enters straight thread straight line TCH test channel 81 by check valve 4, test valve block oil inlet shut-off valve 71, followed by big Go out oil cut-off valve 72, throttle valve 9 and electronics through testing valve block after diameter straight thread damping plug 812 and path straight thread damping plug 814 Flowmeter 10 is back to hydraulic oil container 14.Pressure test loop works, straight thread straight line TCH test channel oil inlet pressure tap 815, straight line Pressure sensor 6 on TCH test channel centre pressure tap 816, the fuel-displaced pressure tap 817 of straight line TCH test channel is anti-to central processing unit Feed voltage force data, electronic flowmeter 10 feed back data on flows to central processing unit;Data calculate output loop work, central processing Front and rear pipes pressure drop values and big straight spiral shell of the device according to major diameter straight thread damping plug 812 and path straight thread damping plug 814 The volume flow numerical value of line damping plug 812 and path straight thread damping plug 814 is calculated according to following formula and exports calculating As a result, obtaining the discharge coefficient changing rule of two-stage type damping plug inner hole.
Wherein: CdFor the discharge coefficient of two-stage type damping plug inner hole, Q is the volume flow by two-stage type damping plug inner hole Amount, A are effective flow area by two-stage type damping plug inner hole, front and back pipe when △ p is by two-stage type damping plug inner hole Road pressure drop, ρ are fluid density.
By adjusting major diameter straight thread damping plug 812 and path straight thread damping plug 814 in straight thread TCH test channel major diameter Research may be implemented in straight thread straight line TCH test channel 81 in different location in section 811 and straight thread TCH test channel path section 813 Influence of the interior difference spacing to the flow behavior of two-stage type damping plug;By the major diameter straight thread damping for replacing different damping aperture Plug 812 and path straight thread damping plug 814 may be implemented to study different damping apertures in straight thread straight line TCH test channel 81 Influence to the flow behavior of two-stage type damping plug.
By the way that the straight thread TCH test channel major diameter section 811 and straight thread test that multiple internal diameters successively sequentially reduce is arranged Channel path section 813 is simultaneously equipped with multiple major diameter straight thread damping plugs 812 and path straight thread damping plug 814, may be implemented Study the flow behavior of multi-stag damping plug;Or by the way that two test valve blocks 8 are connected in series, it also may be implemented two Inner hole flow behavior test under the above two-stage type damping plug cascaded structure.
Damping plug is in actual application in order to rationally design integrated valve block, it will usually the case where there are turning accesses, There are 90 ° of angled channels being made of the beeline channel of two square crossings, is arranged in order to realize in angled channel The case where two-stage type damping plug, which carries out experimental study angled channel, influences the flow behavior of two-stage type damping plug, as the present invention Further improvement scheme, as shown in figure 4, test valve block 8 straight thread TCH test channel further include straight thread turning TCH test channel 82, straight thread turning TCH test channel 82 includes the orthogonal major diameter straight thread pore structure 821 for intersecting perforation and path straight thread Pore structure 822, the rear end of major diameter straight thread pore structure 821 is equipped with fuel inlet fitting installing port, front end is equipped with plug installing port, path The rear end of straight thread pore structure 822 is pressure tap 823 among the TCH test channel of straight thread turning, front end equipped with delivery connection installation Mouthful, the major diameter straight thread damping plug 812 being threadedly engaged with it, path straight thread hole also are provided in major diameter straight thread pore structure 821 It also is provided with the path straight thread damping plug 814 being threadedly engaged with it in structure 822, passes through the arrogant threaded hole knot straight of interior square head wrench Pressure tap 823 is inserted into inside interior side's counter bore structure simultaneously among the fuel inlet fitting installing port and straight thread turning TCH test channel of structure 821 Rotation may be implemented to adjust separately major diameter straight thread damping plug 812 and path straight thread damping plug 814 in major diameter straight thread hole knot The rear portion of axial direction position in structure 821 and path straight thread pore structure 822, major diameter straight thread pore structure 821 is equipped with along it The straight thread turning TCH test channel oil inlet pressure tap 824 and straight thread turning TCH test channel oil inlet pressure tap of radial direction perforation 824 through test valve block 8, and the straight thread turning that the front of path straight thread pore structure 822 is equipped with radially direction perforation is surveyed It pings fuel-displaced pressure tap 825 and TCH test channel fuel-displaced pressure tap 825 in straight thread turning is through test valve block 8, straight thread turning Pressure tap 823, straight thread turning TCH test channel oil inlet pressure tap 824, straight thread turning TCH test channel are fuel-displaced among TCH test channel Also pressure sensor 6 is respectively equipped on pressure tap 825.Before carrying out testing experiment on straight thread turning TCH test channel 82, first lead to Cross path straight thread damping plug of the interior square head wrench from the insertion of pressure tap 823 setting damping aperture among the TCH test channel of straight thread turning Inside 814 interior side's counter bore structure and rotation is adjusted path straight thread damping plug 814 in path straight thread pore structure 822 Axial direction position to setting position, then installed again with the fuel inlet fitting of the arrogant thread pore structure straight 821 of interior square head wrench The major diameter straight thread damping plug 812 in the set-mounted damping aperture of mouth simultaneously adjusts major diameter straight thread damping plug 812 in major diameter straight thread Axial direction position to setting position in pore structure 821 completes the test assembling of test valve block 8, straight thread turning is surveyed Ping 82 fuel inlet fitting installing port connect by fluid pressure line with test valve block oil inlet shut-off valve 71, the test of straight thread turning The delivery connection installing port in channel 82 goes out oil cut-off valve 72 with test valve block by fluid pressure line and connect, and can start test macro It is tested.By adjusting major diameter straight thread damping plug 812 and path straight thread damping plug 814 in major diameter straight thread pore structure 821 and path straight thread pore structure 822 on different location that research may be implemented is different in straight thread turning TCH test channel 82 Influence of the spacing to the flow behavior of two-stage type damping plug;By the major diameter straight thread damping plug 812 for replacing different damping aperture It may be implemented to study different damping apertures in straight thread turning TCH test channel 82 to two-stage with path straight thread damping plug 814 The influence of the flow behavior of formula damping plug.
Damping plug is in actual application in order to rationally design integrated valve block, it will usually exist and be positioned using tapered thread The case where damping plug, carries out experimental study two to the case where tapered thread two-stage type damping plug is arranged in channel in order to realize The flow behavior of grade formula damping plug, as a further improvement of the present invention, as shown in figure 3, being additionally provided with cone in test valve block 8 Shape screw thread TCH test channel, tapered thread TCH test channel include taper thread straight line TCH test channel 83, taper thread straight line TCH test channel 83 It is through the straight-through pore structure of test valve block 8, the rear and front end of straight-through pore structure is respectively equipped with delivery connection installing port and oil inlet Connector installing port, straight-through pore structure include the taper thread TCH test channel major diameter section 831 that rear end is connected to fuel inlet fitting installing port and The taper thread TCH test channel path section 833 that front end is connected to delivery connection installing port, major diameter taper thread damping plug 832 pass through setting Major diameter taper thread in 831 rear end of taper thread TCH test channel major diameter section is fixedly mounted on taper thread TCH test channel major diameter section 831 Rear end, path taper thread damping plug 834 are fixed by the way that the path taper thread of 833 rear end of taper thread TCH test channel path section is arranged in It is mounted on the rear end of taper thread TCH test channel path section 833, as shown in Figure 7, Figure 8, major diameter taper thread damping plug 832 and path cone The rear end that the coaxial damping hole through ontology and damping hole are equipped on the ontology of screw thread damping plug 834 is equipped with interior side's counterbore knot Structure from side counter bore structure inside in the fuel inlet fitting installing port insertion of taper thread straight line TCH test channel 83 and is revolved by interior square head wrench Turn to may be implemented successively to dismount major diameter taper thread damping plug 832 and path taper thread damping plug 834, taper thread straight line TCH test channel The front end of 83 fuel inlet fitting installing port is equipped with the taper thread straight line TCH test channel oil inlet pressure tap of radially direction perforation 835 and taper thread straight line TCH test channel oil inlet pressure tap 835 through test valve block 8, taper thread TCH test channel major diameter section 831 Front is equipped with pressure tap 836 among the radially taper thread straight line TCH test channel of direction perforation and the test of taper thread straight line is logical Pressure tap 836 is equipped with radially direction and passes through through test valve block 8, the front of taper thread TCH test channel path section 833 among road The logical fuel-displaced pressure tap 837 of taper thread straight line TCH test channel and the fuel-displaced pressure tap 837 of taper thread straight line TCH test channel runs through test Valve block 8, taper thread straight line TCH test channel oil inlet pressure tap 835, taper thread straight line TCH test channel centre pressure tap 836, taper thread Pressure sensor 6 is also equipped on the fuel-displaced pressure tap 837 of straight line TCH test channel.It is surveyed on taper thread straight line TCH test channel 83 It has a try before testing, first passes through fuel inlet fitting installing port insertion setting damping aperture of the interior square head wrench from taper thread straight line TCH test channel 83 Path taper thread damping plug 834 interior side's counter bore structure inside and rotate and be fixed and be mounted on taper thread TCH test channel path Then test is completed with the major diameter straight thread damping plug 812 in the set-mounted damping aperture of interior square head wrench again in the rear end of section 833 The test of valve block 8 assembles, and the fuel inlet fitting installing port of taper thread straight line TCH test channel 83 is passed through fluid pressure line and test valve block Oil inlet shut-off valve 71 connects, the delivery connection installing port of taper thread straight line TCH test channel 83 is gone out by fluid pressure line and test valve block Oil cut-off valve 72 connects, and can start test macro and be tested.By the major diameter taper thread damping for replacing different damping aperture Plug 832 and path taper thread damping plug 834 may be implemented to study different damping apertures in taper thread straight line TCH test channel 83 Influence to the flow behavior of two-stage type damping plug.
The case where two-stage type damping plug that tapered thread positioning is arranged in angled channel, is tested in order to realize The flow behavior for the two-stage type damping plug that research angled channel positions tapered thread influences, as a further improvement of the present invention The tapered thread TCH test channel of scheme, test valve block 8 further includes taper thread turning TCH test channel, taper thread turning TCH test channel with Straight thread turning 82 structures of TCH test channel are similar, and taper thread turning TCH test channel includes that the orthogonal major diameter for intersecting perforation is straight-through Pore structure and path lead directly to pore structure, and the rear end that major diameter leads directly to pore structure is equipped with fuel inlet fitting installing port, front end is pacified equipped with plug Mouth is filled, it is pressure tap among the TCH test channel of taper thread turning, front end equipped with delivery connection installation that path, which leads directly to the rear end of pore structure, Mouthful, the major diameter taper thread that major diameter taper thread damping plug 832 leads directly to pore structure rear end by the way that major diameter is arranged in is fixedly mounted on major diameter The rear end of straight-through pore structure, path taper thread damping plug 834 is by being arranged in the path taper thread that path leads directly to pore structure rear end It is fixedly mounted on the rear end that path leads directly to pore structure, the rear portion that major diameter leads directly to pore structure is equipped with the cone spiral shell of radially direction perforation Line turning TCH test channel oil inlet pressure tap and taper thread turning TCH test channel oil inlet pressure tap run through test valve block 8, and path is straight-through The front of pore structure is equipped with the radially fuel-displaced pressure tap of taper thread turning TCH test channel of direction perforation and taper thread turning is surveyed Ping fuel-displaced pressure tap pressure tap, taper thread turning TCH test channel among test valve block 8, taper thread turning TCH test channel Pressure sensor 6 is also respectively equipped on oil inlet pressure tap, the fuel-displaced pressure tap of taper thread turning TCH test channel.It is surveyed at taper thread turning It pings before carrying out testing experiment, first passes through interior square head wrench from pressure tap insertion setting resistance among the TCH test channel of taper thread turning Inside interior side's counter bore structure of the path taper thread damping plug 834 in Buddhist nun aperture and installation is rotated, it is then arrogant with interior square head wrench again The major diameter taper thread damping plug 832 in the set-mounted damping aperture of the fuel inlet fitting installing port of through-hole structure straight, that is, complete test The test of valve block 8 assembles, and the fuel inlet fitting installing port that major diameter leads directly to pore structure is cut by fluid pressure line and test valve block oil inlet Only valve 71 connects, the delivery connection installing port of the straight-through pore structure of path goes out oil cut-off valve 72 by fluid pressure line and test valve block and connects It connects, test macro can be started and tested.By the major diameter taper thread damping plug 832 and path cone of replacing different damping aperture Screw thread damping plug 834 may be implemented to study different damping apertures in the TCH test channel of taper thread turning to two-stage type damping plug The influence of flow behavior.
In order to be convenient for the specific location of observation major diameter straight thread damping plug 812 and path straight thread damping plug 814, prevent Only artificially the location dislocation of installation major diameter straight thread damping plug 812 and path straight thread damping plug 814 causes test data to misplace, As a further improvement of the present invention, test valve block 8 is made of transparent material.
Major diameter straight thread damping plug 812 and path straight thread damping plug 814 are quick and precisely positioned in order to further realize Specific location obtains more accurate data in turn, as a further improvement of the present invention, tests in valve block 8 and corresponds to major diameter The position of 814 shift motion of straight thread damping plug 812 and path straight thread damping plug is equipped with dial markings or graduated scale.Graduated scale Line or graduated scale can be by the way of laser ablations or the mode of preset graduated scale.
In order to avoid the temperature change because of hydraulic oil has an impact test data, further change as of the invention Into scheme, hydraulic control device further includes not in the liquid level of hydraulic oil container 14 cooler 11 below, temperature sensor 12 and adding Hot device 13, cooler 11, temperature sensor 12 and heater 13 are electrically connected with the central processing unit of electric control gear respectively, automatically controlled dress Setting further includes Oil-temperature control circuit.When the oil temperature of temperature sensor 12 feedback hydraulic oil is higher or lower than set temperature, center Processor control cooler 11 or heater 13 are powered on, and then realize the constant temperature of hydraulic oil.
In order to further realize automation, as a further improvement of the present invention, overflow valve 5 is electromagnetic relief valve, Pressure gauge 3 is electronic pressure gage, and shut-off valve 7 is electromagnet cut off valve, and throttle valve 9 is electromagnetic throttle valve, electromagnetic relief valve, electronics pressure Power table, electromagnet cut off valve, electromagnetic throttle valve are electrically connected with the central processing unit of electric control gear respectively.By setting nominal operation pressure Power, metered flow may be implemented to automatically control.
It can get two-stage type damping plug by this two-stage type damping plug flow behavior test system and its test method The discharge coefficient changing rule of inner hole can get between concatenated two two-stage type damping plugs different spacing to two-stage type damping plug The influence of inner hole flow behavior can accurately study the flow behavior and two two-stages of two-stage type damping plug inner hole in the duct Flow behavior when formula damping plug inner hole is connected in the duct, and then realization characterizes two-stage type damping plug inner hole flow behavior Discharge coefficient inner hole flow behavior under different spacing of changing rule and concatenated two two-stage type damping plugs, by right Two test valve blocks 8 are connected in series, and can also realize the inner hole flowing under more than two two-stage type damping plug cascaded structures Characteristic test provides data support and theoretical research foundation for two-stage type damping plug inner hole flow behavior.

Claims (10)

1. a kind of two-stage type damping plug flow behavior test system, including hydraulic control device, test are valve block (8) and automatically controlled Device;The hydraulic control device includes hydraulic oil container (14), filter (1), hydraulic pump (2), overflow valve (5), pressure gauge (3), check valve (4), shut-off valve (7), throttle valve (9), electronic flowmeter (10);The power intake and motor of hydraulic pump (2) Connection, the inlet line that connection is connected to the liquid feeding end of hydraulic pump (2) pass through filter (1) not in the liquid in hydraulic oil container (14) Below pressure oil liquid level;Shut-off valve (7) includes that test valve block oil inlet shut-off valve (71) and test valve block go out oil cut-off valve (72);With liquid Being connect with hydraulic oil container (14) by overflow valve (5) all the way of the pump oil pipeline of the pump liquid end connection connection of press pump (2), another way It is connect by check valve (4) with test valve block oil inlet shut-off valve (71);The pump liquid end position of hydraulic pump (2) is equipped with pressure gauge (3); Test valve block goes out oil cut-off valve (72) and is successively linked in sequence with throttle valve (9) and electronic flowmeter (10) by fluid pressure line, electricity The outlet end of subflow meter (10) is connect by oil return fluid pressure line with hydraulic oil container (14);It is characterized in that,
The test valve block (8) is equipped with straight thread TCH test channel, and straight thread TCH test channel includes that the test of straight thread straight line is logical Road (81);Straight thread straight line TCH test channel (81) is through the straight thread pore structure of test valve block (8), before straight thread pore structure Both ends are respectively equipped with delivery connection installing port and fuel inlet fitting installing port afterwards, and fuel inlet fitting installing port passes through fluid pressure line and test Valve block oil inlet shut-off valve (71) connection, delivery connection installing port go out oil cut-off valve (72) even by fluid pressure line and test valve block It connects, straight thread pore structure includes the straight thread TCH test channel major diameter section (811) and front end that rear end is connected to fuel inlet fitting installing port The straight thread TCH test channel path section (813) being connected to delivery connection installing port, straight thread TCH test channel major diameter section (811) is interior to be set There is the major diameter straight thread damping plug (812) being threadedly engaged with it, is equipped with and its screw thread in straight thread TCH test channel path section (813) The path straight thread damping plug (814) of cooperation, the sheet of major diameter straight thread damping plug (812) and path straight thread damping plug (814) The rear end that the coaxial damping hole through ontology and damping hole are equipped on body is equipped with interior side's counter bore structure, straight thread TCH test channel The rear portion of major diameter section (811) is equipped with the radially straight thread straight line TCH test channel oil inlet pressure tap (815) of direction perforation and straight Screw thread straight line TCH test channel oil inlet pressure tap (815) is before test valve block (8), straight thread TCH test channel major diameter section (811) Portion or the rear portion of straight thread TCH test channel path section (813) are equipped among the radially straight line TCH test channel of direction perforation and survey pressure Pressure tap (816) is through test valve block (8), straight thread TCH test channel path section among hole (816) and straight line TCH test channel (813) the fuel-displaced pressure tap of straight line TCH test channel (817) and straight line TCH test channel that front is equipped with radially direction perforation go out Oily pressure tap (817) is through test valve block (8);
The electric control gear include central processing unit, pressure sensor (6), pressure test circuit, data calculate output loop, More than one piece pressure sensor (6) is separately positioned on straight thread straight line TCH test channel oil inlet pressure tap (815), among straight line TCH test channel On pressure tap (816), the fuel-displaced pressure tap of straight line TCH test channel (817), central processing unit respectively with electronic flowmeter (10), more than one piece Pressure sensor (6) electrical connection.
2. two-stage type damping plug flow behavior test system according to claim 1, which is characterized in that test valve block (8) straight thread TCH test channel further includes straight thread turning TCH test channel (82), and straight thread turning TCH test channel (82) includes mutual The perpendicular major diameter straight thread pore structure (821) and path straight thread pore structure (822) for intersecting perforation, major diameter straight thread pore structure (821) rear end is equipped with fuel inlet fitting installing port, front end is equipped with plug installing port, the rear end of path straight thread pore structure (822) Delivery connection installing port, major diameter straight thread pore structure are equipped with for pressure tap (823), front end among the TCH test channel of straight thread turning (821) it also is provided with the major diameter straight thread damping plug (812) being threadedly engaged with it in, is also set in path straight thread pore structure (822) There is the path straight thread damping plug (814) being threadedly engaged with it, the rear portion of major diameter straight thread pore structure (821) is equipped with radially The straight thread turning TCH test channel oil inlet pressure tap (824) and straight thread turning TCH test channel oil inlet pressure tap of direction perforation (824) through test valve block (8), the front of path straight thread pore structure (822) is equipped with the straight thread of radially direction perforation The fuel-displaced pressure tap of turning TCH test channel (825) and the fuel-displaced pressure tap of straight thread turning TCH test channel (825) run through test valve block (8), pressure tap (823), straight thread turning TCH test channel oil inlet pressure tap (824), straight spiral shell among the TCH test channel of straight thread turning Also pressure sensor (6) are respectively equipped on the fuel-displaced pressure tap of line turning TCH test channel (825).
3. two-stage type damping plug flow behavior test system according to claim 1, which is characterized in that test valve block (8) tapered thread TCH test channel is additionally provided on, tapered thread TCH test channel includes taper thread straight line TCH test channel (83), taper thread Straight line TCH test channel (83) is through the straight-through pore structure of test valve block (8), and the rear and front end of straight-through pore structure is respectively equipped with out Oily connector installing port and fuel inlet fitting installing port, straight-through pore structure include the taper thread survey that rear end is connected to fuel inlet fitting installing port Ping major diameter section (831) and taper thread TCH test channel path section (833) that front end is connected to delivery connection installing port, major diameter cone Major diameter taper thread of the screw thread damping plug (832) by setting in taper thread TCH test channel major diameter section (831) rear end is fixedly mounted on The rear end of taper thread TCH test channel major diameter section (831), path taper thread damping plug (834) is by being arranged in taper thread TCH test channel The path taper thread of path section (833) rear end is fixedly mounted on the rear end of taper thread TCH test channel path section (833), and major diameter bores spiral shell It is equipped with the coaxial damping hole through ontology on the ontology of line damping plug (832) and path taper thread damping plug (834) and damps The rear end in hole is equipped with interior side's counter bore structure, and the front end of the fuel inlet fitting installing port of taper thread straight line TCH test channel (83) is equipped with along it The taper thread straight line TCH test channel oil inlet pressure tap (835) and taper thread straight line TCH test channel oil inlet survey pressure of radial direction perforation Through test valve block (8), the front of taper thread TCH test channel major diameter section (831) is equipped with radially direction perforation in hole (835) Pressure tap (836) and taper thread straight line TCH test channel centre pressure tap (836), which run through, among taper thread straight line TCH test channel tests Valve block (8), the taper thread straight line test that the front of taper thread TCH test channel path section (833) is equipped with radially direction perforation are logical The fuel-displaced pressure tap in road (837) and the fuel-displaced pressure tap of taper thread straight line TCH test channel (837), which run through, tests valve block (8), and taper thread is straight Pressure tap (836), the test of taper thread straight line are logical among line TCH test channel oil inlet pressure tap (835), taper thread straight line TCH test channel Also pressure sensor (6) are equipped on the fuel-displaced pressure tap in road (837).
4. two-stage type damping plug flow behavior test system according to claim 3, which is characterized in that test valve block (8) tapered thread TCH test channel further includes taper thread turning TCH test channel, and taper thread turning TCH test channel includes orthogonal The major diameter for intersecting perforation leads directly to pore structure and path leads directly to pore structure, and the rear end that major diameter leads directly to pore structure is installed equipped with fuel inlet fitting Mouth, front end are equipped with plug installing port, and the rear end that path leads directly to pore structure is pressure tap, front end among the TCH test channel of taper thread turning Equipped with delivery connection installing port, major diameter taper thread damping plug (832), which passes through, is arranged in the major diameter cone that major diameter leads directly to pore structure rear end It is screwed and is mounted on the rear end that major diameter leads directly to pore structure, path taper thread damping plug (834) is by being arranged in path clear opening The path taper thread of structure rear end is fixedly mounted on the rear end that path leads directly to pore structure, and the rear portion that major diameter leads directly to pore structure is equipped with edge The taper thread turning TCH test channel oil inlet pressure tap and taper thread turning TCH test channel oil inlet pressure tap of its radial direction perforation pass through Test valve block (8) is worn, the front that path leads directly to pore structure is equipped with the taper thread turning TCH test channel of radially direction perforation Fuel-displaced pressure tap and the fuel-displaced pressure tap of taper thread turning TCH test channel, which run through, tests valve block (8), in the TCH test channel of taper thread turning Between pressure tap, taper thread turning TCH test channel oil inlet pressure tap, also set respectively on the fuel-displaced pressure tap of taper thread turning TCH test channel There are pressure sensor (6).
5. special according to claim 1 to two-stage type damping plug flow behavior test system described in 4 any claims Sign is that test valve block (8) is made of transparent material.
6. two-stage type damping plug flow behavior test system according to claim 5, which is characterized in that test valve block (8) position that major diameter straight thread damping plug (812) and path straight thread damping plug (814) shift motion are corresponded in is equipped with graduated scale Line or graduated scale.
7. special according to claim 1 to two-stage type damping plug flow behavior test system described in 4 any claims Sign is, hydraulic control device further includes not liquid level cooler below (11), the temperature sensor in hydraulic oil container (14) (12) and heater (13), cooler (11), temperature sensor (12) and heater (13) respectively with the centre of electric control gear Device electrical connection is managed, electric control gear further includes Oil-temperature control circuit.
8. special according to claim 1 to two-stage type damping plug flow behavior test system described in 4 any claims Sign is that overflow valve (5) is electromagnetic relief valve, and pressure gauge (3) is electronic pressure gage, and shut-off valve (7) is electromagnet cut off valve, throttling Valve (9) is electromagnetic throttle valve, electromagnetic relief valve, electronic pressure gage, electromagnet cut off valve, electromagnetic throttle valve respectively with electric control gear Central processing unit electrical connection.
9. a kind of two-stage type damping plug flow behavior testing experiment method, which is characterized in that specifically includes the following steps:
A. test prepares: first passing through inside interior side's counter bore structure of the path damping plug in interior square head wrench insertion setting damping aperture simultaneously Rotation is adjusted axial direction position to setting position of the path damping plug in TCH test channel, is then pacified again with interior square head wrench Installing damps the major diameter damping plug in aperture surely and adjusts axial direction position of the major diameter damping plug in TCH test channel to setting position It sets, the fuel inlet fitting installing port of TCH test channel is connect by fluid pressure line with test valve block oil inlet shut-off valve (71), tests and leads to The delivery connection installing port in road goes out oil cut-off valve (72) with test valve block by fluid pressure line and connect;
B. two-stage type damping plug flow behavior is tested: starting hydraulic pump (2) is started to work, and pumps out pressure by pressure gauge (3) observation Force value and control overflow valve (5) adjustment pump out pressure to setup pressure value;It opens test valve block oil inlet shut-off valve (71) and tests Valve block goes out oil cut-off valve (72);Pressure test loop works, TCH test channel oil inlet pressure tap, are surveyed TCH test channel centre pressure tap The pressure sensor (6) on fuel-displaced pressure tap is pinged to central processing unit feedback pressure data, electronic flowmeter (10) is in Central processor feeds back data on flows;
C. data are calculated and exported: data calculate output loop work, and central processing unit is damped according to major diameter damping plug and path The front and rear pipes pressure drop values and major diameter damping plug of plug and the volume flow numerical value of path damping plug are calculated and export meter It calculates as a result, obtaining the discharge coefficient changing rule of two-stage type damping plug inner hole.
10. two-stage type damping plug flow behavior testing experiment method according to claim 9, which is characterized in that in step c Central processing unit is calculated and is exported calculated result according to following formula,
Wherein: CdFor the discharge coefficient of two-stage type damping plug inner hole, Q is the volume flow by two-stage type damping plug inner hole, and A is Front and rear pipes pressure by effective flow area of two-stage type damping plug inner hole, when △ p is by two-stage type damping plug inner hole Drop, ρ is fluid density.
CN201810678413.3A 2018-06-27 2018-06-27 A kind of two-stage type damping plug flow behavior test system and its test method Active CN108827828B (en)

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